Search results for "Simulation."

showing 10 items of 4779 documents

Axial dispersion of Brownian colloids in microfluidic channels

2016

Fluid Flow and Transfer ProcessesColloidMaterials scienceChemical physicsModeling and SimulationMicrofluidic channel0103 physical sciencesComputational Mechanics010306 general physicsDispersion (chemistry)01 natural sciencesBrownian motion010305 fluids & plasmasPhysical Review Fluids
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Phase boundary dynamics of bubble flow in a thick liquid metal layer under an applied magnetic field

2020

Dynamic neutron radiography is used to observe the effect of a transverse magnetic field on argon bubbles rising through a thick layer of liquid gallium without interactions with the container walls.

Fluid Flow and Transfer ProcessesLiquid metalPhase boundaryMaterials scienceArgonCondensed matter physicsPhysics::Instrumentation and DetectorsNeutron imagingDynamics (mechanics)Computational Mechanicschemistry.chemical_elementMagnetic fieldPhysics::Fluid DynamicschemistryModeling and SimulationBubble flowNuclear ExperimentLayer (electronics)Physical Review Fluids
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Effects of irregular two-dimensional and three-dimensional surface roughness in turbulent channel flows

2012

Abstract Wall-resolved Large Eddy Simulation of fully developed turbulent channel flows over two different rough surfaces is performed to investigate on the effects of irregular 2D and 3D roughness on the turbulence. The two geometries are obtained through the superimposition of sinusoidal functions having random amplitudes and different wave lengths. In the 2D configuration the irregular shape in the longitudinal direction is replicated in the transverse one, while in the 3D case the sinusoidal functions are generated both in streamwise and spanwise directions. Both channel walls are roughened in such a way as to obtain surfaces with statistically equivalent roughness height, but different…

Fluid Flow and Transfer ProcessesMaterials scienceTurbulencebusiness.industryMechanical EngineeringReynolds numberGeometrySurface finishReynolds stressCondensed Matter PhysicsOpen-channel flowSettore ICAR/01 - IdraulicaPhysics::Fluid DynamicsTurbulencesymbols.namesakeOpticsRoughness lengthLarge Eddy simulationSurface roughnesssymbolsRoughnebusinessLarge eddy simulation
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Numerical study of two-dimensional wet foam over a range of shear rates

2017

The shear rheology of two-dimensional foam is investigated over a range of shear rates with the numerical DySMaL model, which features dynamically deformable bubbles. It is found that at low shear rates, the rheological behavior of the system can be characterized by a yield stress power-law constitutive equation that is consistent with experimental findings and can be understood in terms of soft glassy rheology models. At low shear rates, the system rheology is also found to be subject to a scaling law involving the bubble size, the surface tension, and the viscosity of the carrier fluid. At high shear rates, the model produces a dynamic phase transition with a sudden change in the flow pat…

Fluid Flow and Transfer ProcessesMaterials scienceta114Computational Mechanicselastic deformation02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesShear rateSimple shearPhysics::Fluid DynamicsCondensed Matter::Soft Condensed MatterShear (geology)RheologyModeling and Simulationreologia0103 physical sciencesrheologyshear deformationComposite material010306 general physics0210 nano-technology
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Numerical simulation of reciprocating turbulent flow in a plane channel

2009

Direct numerical simulation results were obtained for oscillatory flow with zero time mean (reciprocating flow) in a plane channel using a finite volume method, Crank-Nicolson time stepping and central approximation of the advection terms. A pressure gradient varying co-sinusoidally in time was imposed as the forcing term, and its frequency and amplitude were made to vary so as to span a range of regimes from purely laminar to fully turbulent. For the limiting cases of reciprocating laminar flow and steady-state turbulent flow, numerical results were validated against analytical solutions and classic experimental literature data, respectively. For general reciprocating flows, predictions we…

Fluid Flow and Transfer ProcessesPhysicsChézy formulaTurbulenceMechanical EngineeringComputational MechanicsDirect numerical simulationThermodynamicsLaminar sublayerLaminar flowMechanicsReciprocating Flow Channel flow transition to turbulence Direct Numerical SimulationCondensed Matter PhysicsPipe flowOpen-channel flowPhysics::Fluid DynamicsFlow separationMechanics of MaterialsSettore ING-IND/19 - Impianti NucleariPhysics of Fluids
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Quincke rotation driven flows

2020

In density-matched suspensions of Quincke particles, macroscopic flow arises due to the synchronization of their rotations at electric-field values smaller than the threshold field for the spontaneous rotation of a single particle.

Fluid Flow and Transfer ProcessesPhysicsFlow (mathematics)Field (physics)Modeling and SimulationSynchronization (computer science)Computational MechanicsParticleMechanicsRotationPhysical Review Fluids
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Time-resolved velocity measurements in a magnetic micromixer

2015

Abstract Mixing efficiency is lower in passive micromixers due to viscous forces and substantial research effort is focused on designing high performance micromixers. Active micromixers make use of external forces to enhance mixing efficiency. Among these, magnetic forces are popular because they are non-contact and therefore the micromixer design can be kept simple. Laser-based diagnostic tools have great potential in providing multi-parameter information in microfluidics research on mixing. MicroPIV experiments are performed to investigate the transient flow field in a magnetic micromixer undergoing labyrinthine instability. Velocity and interface front information is extracted from a seq…

Fluid Flow and Transfer ProcessesPhysicsMechanical EngineeringGeneral Chemical EngineeringAcousticsMicrofluidicsAerospace EngineeringMicromixerImage processingEdge detectionFilter (large eddy simulation)Nuclear Energy and EngineeringPrewitt operatorMixing (physics)Microscale chemistryExperimental Thermal and Fluid Science
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A study of turbulent heat transfer in curved pipes by numerical simulation

2013

Abstract Turbulent heat transfer in curved pipes was studied by numerical simulation. Two curvatures δ (pipe radius a/curvature radius c) were considered, 0.1 and 0.3; results were also obtained for a straight pipe (δ = 0) for comparison purposes. A tract of pipe 5 diameters in length was chosen as the computational domain and was discretized by finite volume multiblock-structured grids of ∼5.3 × 106 hexahedral cells. Fully developed conditions were assumed; the friction velocity Reynolds number was 500, corresponding to bulk Reynolds numbers between 12 630 and ∼17 350 according to the curvature, while the Prandtl number was 0.86 (representative of saturated liquid water at 58 bar). Simulat…

Fluid Flow and Transfer ProcessesPhysicsTurbulenceMechanical EngineeringPrandtl numberDirect numerical simulationReynolds numberMechanicsHeat transfer coefficientCondensed Matter PhysicsCurvaturePhysics::Fluid Dynamicssymbols.namesakeClassical mechanicsTurbulent heat transfer curved pipe Direct Numerical Simulation Computational Fluid Dynamics Finite Volume MethodHeat transfersymbolsShear velocitySettore ING-IND/19 - Impianti Nucleari
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Simplified Energy Model and Multi-Objective Energy Consumption Optimization of a Residential House

2022

Featured Application: The potential application of the proposed model is a computationally inexpensive semi- or fully automated system for the optimization of operation in residential buildings in terms of energy consumption. Some analyses state that buildings contribute to overall energy consumption by 20–40%, which, in the context of the recent geopolitical energy crisis, makes them a critical issue to study. Finding solutions for better energy management in buildings can have a significant impact on the energy sector, thus reducing EU energy dependencies and contributing to the fulfillment of the REPowerEU goals. This paper focuses on proposing a simplified model of a residential house c…

Fluid Flow and Transfer ProcessesSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaProcess Chemistry and Technologybuilding energy model energy demand multi-objective optimization residential building simulation weather forecast uncertaintyGeneral Engineeringresidential building simulation; building energy model; energy demand; weather forecast uncertainty; multi-objective optimizationGeneral Materials ScienceInstrumentationComputer Science ApplicationsApplied Sciences; Volume 12; Issue 20; Pages: 10212
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Numerical observations of turbulence structure modification in channel flow over 2D and 3D rough walls

2015

Abstract The effects of wall roughness on turbulence structure modifications were explored by numerical experiments, carried out using Large Eddy Simulation techniques. The wall geometry was made using an archetypal artificial method, thus to achieve irregular two- and three-dimensional shapes. The proposed roughness shapes are highly irregular and are characterised by high and small peaks, thus it can be considered a practical realistic roughness. Their effects are analysed comparing the turbulence quantities over smooth, 2D and 3D rough walls of fully developed channel flow at relatively low friction Reynolds number Re τ = 395 . Both transitional and fully rough regimes have been investig…

Fluid Flow and Transfer ProcessesSurface (mathematics)Materials scienceSimilarity (geometry)Turbulence simulationTurbulenceMechanical EngineeringReynolds numberCondensed Matter PhysicSurface finishMechanicsCondensed Matter PhysicsSettore ICAR/01 - IdraulicaOpen-channel flowPhysics::Fluid DynamicsThree-dimensional irregular roughnesymbols.namesakeClassical mechanicsLESsymbolsSurface roughnessChannel flowLarge eddy simulationInternational Journal of Heat and Fluid Flow
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